/*============================================================================

The Medical Imaging Interaction Toolkit (MITK)

Copyright (c) German Cancer Research Center (DKFZ)
All rights reserved.

Use of this source code is governed by a 3-clause BSD license that can be
found in the LICENSE file.

============================================================================*/

#include <mitkIOUtil.h>
#include <mitkITKImageImport.h>
#include <mitkImage.h>
#include <mitkImageAccessByItk.h>
#include <mitkImageCast.h>
#include <mitkTestingMacros.h>

#include <itkBinaryThresholdImageFilter.h>
#include <itkImageFileWriter.h>
#include <itkTestingComparisonImageFilter.h>

#include <mitkImagePixelReadAccessor.h>

//#include <mitkLexicalCast.h>

class DirectOverlayTestClass
{
public:
  template <typename TPixel, unsigned int VDimensions>
  static void InternalThreshold(const itk::Image<TPixel, VDimensions> *image,
                                mitk::Image::Pointer &output,
                                const double th[])
  {
    typedef itk::Image<TPixel, VDimensions> InputImageType;
    typedef itk::Image<unsigned int, VDimensions> OutputImageType;
    typedef itk::BinaryThresholdImageFilter<InputImageType, OutputImageType> BinaryThresholdFilterType;

    typename BinaryThresholdFilterType::Pointer thresholder = BinaryThresholdFilterType::New();
    thresholder->SetInput(image);
    thresholder->SetLowerThreshold(th[0]);
    thresholder->SetUpperThreshold(th[1]);
    thresholder->SetInsideValue(255);
    thresholder->SetOutsideValue(0);
    thresholder->Update();

    output = mitk::ImportItkImage(thresholder->GetOutput());
    // mitk::IOUtil::Save( output, "/tmp/out.nii" );
    std::cout << "extra line";
  }

  template <typename TPixel, unsigned int VDimensions>
  static void InternalThreshold2(const itk::Image<TPixel, VDimensions> *image,
                                 itk::Image<unsigned int, 3>::Pointer &output,
                                 const double th[])
  {
    typedef itk::Image<TPixel, VDimensions> InputImageType;
    typedef itk::Image<unsigned int, VDimensions> OutputImageType;
    typedef itk::BinaryThresholdImageFilter<InputImageType, OutputImageType> BinaryThresholdFilterType;

    typename BinaryThresholdFilterType::Pointer thresholder = BinaryThresholdFilterType::New();
    thresholder->SetInput(image);
    thresholder->SetLowerThreshold(th[0]);
    thresholder->SetUpperThreshold(th[1]);
    thresholder->SetInsideValue(255);
    thresholder->SetOutsideValue(0);
    thresholder->Update();

    output = thresholder->GetOutput();
  }

  static void TestOverlay(mitk::Image::Pointer original,
                          mitk::Image::Pointer truth,
                          const double lower,
                          const double upper)
  {
    mitk::Image::Pointer overlayImage;
    const double th[] = {lower, upper};
    typedef itk::Image<unsigned int, 3> ImageType;
    ImageType::Pointer itkOverlayImage = ImageType::New();

    AccessByItk_2(original, InternalThreshold, overlayImage, th);
    /*
        AccessFixedDimensionByItk_2( original, InternalThreshold2,
                                     3, itkOverlayImage,
                                     th );

        overlayImage = mitk::ImportItkImage( itkOverlayImage );
    */
    // mitk::IOUtil::Save(truth, "/tmp/truth_TestOverlay.nii");
    try
    {
      // mitk::Image::Pointer temp = overlayImage;
      mitk::IOUtil::Save(overlayImage, "/tmp/overlayImage_TestOverlay.nrrd");
    }
    catch (const itk::ExceptionObject &e)
    {
      MITK_ERROR << "Save image: exception : " << e.what();
    }

    typedef itk::Image<unsigned int, 3> InputImageType;

    InputImageType::Pointer overlayItk;
    try
    {
      mitk::CastToItkImage(overlayImage, overlayItk);
    }
    catch (const mitk::Exception &e)
    {
      MITK_ERROR << "(CAST) Catched exception while creating accessor " << e.what();
      // MITK_TEST_FAILED_MSG("Exception for ouverlay image");
    }

    /*
        typedef  itk::ImageFileWriter< InputImageType  > WriterType;
        WriterType::Pointer writer = WriterType::New();
        writer->SetFileName("/tmp/overlayITK_TestOverlay.nii");
        writer->SetInput(overlayItk);
        writer->Update();
    */
    InputImageType::Pointer truthItk;
    mitk::CastToItkImage(truth, truthItk);

    bool difference = false;
    /*
        try
        {
          typedef unsigned int TPixel;

          itk::ImageRegionConstIteratorWithIndex< InputImageType > iter( truthItk, truthItk->GetLargestPossibleRegion()
       );
          iter.GoToBegin();

          mitk::ImagePixelReadAccessor< TPixel, 3 > readAccessor( overlayImage, overlayImage->GetVolumeData(0),
       mitk::ImageAccessorBase::ExceptionIfLocked );

          while( !iter.IsAtEnd() )
          {
            TPixel ref = iter.Get();
            TPixel val = readAccessor.GetPixelByIndex( iter.GetIndex() );

            difference |= ( ref != val );
            //if( difference )
            //{
              std::cout << iter.GetIndex() << ":" << ref << " ? " << val << "\n";
            //}
            ++iter;
          }
        }
        catch( const mitk::Exception &e)
        {
          MITK_ERROR << "Catched exception while creating accessor "<< e.what();
          //MITK_TEST_FAILED_MSG("Exception for ouverlay image");
        }



    */

    /*
        typedef itk::Testing::ComparisonImageFilter
          <InputImageType, InputImageType> ComparisonImageFilterType;
        ComparisonImageFilterType::Pointer comp =
          ComparisonImageFilterType::New();
        comp->SetValidInput(truthItk);
        comp->SetTestInput(overlayItk);
        try
        {
          comp->Update();
        }
        catch( const itk::ExceptionObject& e)
        {
          MITK_ERROR << "ITK Exception: " << e.what();
        }
    */
    typedef unsigned int TPixel;

    itk::ImageRegionConstIteratorWithIndex<InputImageType> iter(truthItk, truthItk->GetLargestPossibleRegion());
    itk::ImageRegionConstIteratorWithIndex<InputImageType> iter2(overlayItk, overlayItk->GetLargestPossibleRegion());
    iter.GoToBegin();

    unsigned int counter = 0;
    while (!iter.IsAtEnd() && !iter2.IsAtEnd())
    {
      TPixel ref = iter.Get();
      TPixel val = iter2.Get();

      if (ref != val)
      {
        counter++;
        //     std::cout << iter.GetIndex() << ":" << ref << " ? " << val << "\n";
      }

      ++iter;
      ++iter2;
    }

    std::cout << "Differs in " << counter << "voxels" << std::endl;

    MITK_TEST_CONDITION_REQUIRED(
      // comp->GetNumberOfPixelsWithDifferences() == 0,
      counter == 0,
      "Comparing overlay with ground truth")
  }

  static void TestDirectOverlay(char *in, char *gt, const int lower, const int upper)
  {
    mitk::Image::Pointer original = mitk::IOUtil::Load<mitk::Image>(in);
    mitk::Image::Pointer truth = mitk::IOUtil::Load<mitk::Image>(gt);

    if (original.IsNotNull() && original->GetDimension() == 3 && truth.IsNotNull() && truth->GetDimension() == 3 &&
        upper > lower)
    {
      TestOverlay(original, truth, lower, upper);
    }
    else
    {
      MITK_TEST_FAILED_MSG(<< "Invalid parameters");
    }
  }
};

int DirectOverlayTest(int argc, char *argv[])
{
  MITK_TEST_BEGIN("DirectOverlay")

  MITK_TEST_CONDITION_REQUIRED(argc >= 5, "File to load has been specified on the command line");

  unsigned int lower = 0, upper = 0;

  try
  {
    sscanf(argv[3], "%u", &lower);
    sscanf(argv[4], "%u", &upper);
    // lower = boost::lexical_cast<double>(argv[3]);
    // upper = boost::lexical_cast<double>(argv[4]);

    MITK_INFO << "Got values: " << lower << " : " << upper;
  }
  catch (std::exception &e)
  {
    MITK_TEST_FAILED_MSG(<< e.what());
  }

  DirectOverlayTestClass::TestDirectOverlay(argv[1], argv[2], lower, upper);

  MITK_TEST_END()
}
